CN1249556C - Casing for storage apparatus and storage apparatus - Google Patents
Casing for storage apparatus and storage apparatus Download PDFInfo
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- CN1249556C CN1249556C CNB2004100487381A CN200410048738A CN1249556C CN 1249556 C CN1249556 C CN 1249556C CN B2004100487381 A CNB2004100487381 A CN B2004100487381A CN 200410048738 A CN200410048738 A CN 200410048738A CN 1249556 C CN1249556 C CN 1249556C
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- resettlement section
- framework
- storage arrangement
- disc driver
- held
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B33/00—Constructional parts, details or accessories not provided for in the other groups of this subclass
- G11B33/12—Disposition of constructional parts in the apparatus, e.g. of power supply, of modules
- G11B33/125—Disposition of constructional parts in the apparatus, e.g. of power supply, of modules the apparatus comprising a plurality of recording/reproducing devices, e.g. modular arrangements, arrays of disc drives
- G11B33/127—Mounting arrangements of constructional parts onto a chassis
- G11B33/128—Mounting arrangements of constructional parts onto a chassis of the plurality of recording/reproducing devices, e.g. disk drives, onto a chassis
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/18—Packaging or power distribution
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B33/00—Constructional parts, details or accessories not provided for in the other groups of this subclass
- G11B33/12—Disposition of constructional parts in the apparatus, e.g. of power supply, of modules
- G11B33/125—Disposition of constructional parts in the apparatus, e.g. of power supply, of modules the apparatus comprising a plurality of recording/reproducing devices, e.g. modular arrangements, arrays of disc drives
- G11B33/126—Arrangements for providing electrical connections, e.g. connectors, cables, switches
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B33/00—Constructional parts, details or accessories not provided for in the other groups of this subclass
- G11B33/14—Reducing influence of physical parameters, e.g. temperature change, moisture, dust
- G11B33/1406—Reducing the influence of the temperature
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B33/00—Constructional parts, details or accessories not provided for in the other groups of this subclass
- G11B33/14—Reducing influence of physical parameters, e.g. temperature change, moisture, dust
- G11B33/1406—Reducing the influence of the temperature
- G11B33/1413—Reducing the influence of the temperature by fluid cooling
- G11B33/142—Reducing the influence of the temperature by fluid cooling by air cooling
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- Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Power Engineering (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Engineering & Computer Science (AREA)
- General Physics & Mathematics (AREA)
- Power Sources (AREA)
- Cooling Or The Like Of Electrical Apparatus (AREA)
- Mounting Of Printed Circuit Boards And The Like (AREA)
Abstract
Casing for storage apparatus and storage apparatus. The invention provides a casing for a storage apparatus having a first receiving portion for receiving a disc drive box in which a plurality of disc drives are received in a line, the first receiving portion being approximately equal in height and width to the disc drive box, and a second receiving portion for receiving a control portion box in which a plurality of control boards for executing a control relating to a data input and output process with respect to the disc drive are received in a line, the second receiving portion being approximately equal in height and width to the first receiving portion.
Description
Technical field
The present invention relates to a kind of storage arrangement with framework and storage arrangement.
Background technology
As the storage arrangement that the memory storage of information handling system uses, require its formation can be according to user's demand from being formed into the flexible transformation of extensive formation on a small scale.
Therefore, general storage arrangement, the control device that is configured for holding the drive unit of disc driver and has held the control part that all storage arrangements are controlled with different frameworks, as required by means of setting up drive unit, the then variable scale that more satisfies user's demand.
In addition, under the situation that the small-scale of the disc driver negligible amounts that loads constitutes, the situation as the structure of integral apparatus that will be contained in as the necessary minimal function of storage arrangement in the framework is arranged also.
The device of said structure for example is documented in the Japanese kokai publication hei 5-204493 communique.
But, in existing accumulator apparatus, because each framework of control device, drive unit, integral apparatus is special respectively the manufacturing, for example: when the large-scale storage arrangement that will change to as the small-scale storage arrangement of integral apparatus as control device and drive unit, just can not utilize the framework of the integral apparatus that uses so far.And, owing to must make different types of framework, thereby become the main cause that the storage arrangement cost improves.
Summary of the invention
The present invention proposes in view of there being the problems referred to above, and its objective is provides a kind of storage arrangement with framework and storage arrangement.
For solving above-mentioned problem, storage arrangement framework of the present invention, be provided with the disc driver of the disc driver that has held a plurality of proper alignment and equate with frame height and width, and the 1st resettlement section that has held described disc driver usefulness framework, with the control part that a plurality of control panels of controlling are handled in the input and output of described disk drive data that has held proper alignment with framework, the 2nd resettlement section that equates with the height and the width of described the 1st resettlement section.Described the 1st resettlement section is positioned at the upper strata of storage arrangement with framework, and described the 2nd resettlement section is positioned at the middle level of storage arrangement with framework, and described the 2nd resettlement section is arranged at the bottom of described the 1st resettlement section.
, also be provided with to hold and carry out electric power supply power the 3rd resettlement section partly with in the framework at described storage arrangement, should be arranged at the bottom of described the 2nd resettlement section as desirable formation the 3rd resettlement section to described control panel and described disc driver.
In addition, it is a kind of that the present invention can provide, disposed storage arrangement framework with above-mentioned formation, the described disc driver that holds with described the 1st resettlement section is with framework and a plurality of described disc driver that held thereof, the storage arrangement of the described power unit that the described control part that holds with described the 2nd resettlement section holds with framework and a plurality of described control panel that is held thereof and described the 3rd resettlement section.
Also have, storage arrangement of the present invention is, storage arrangement has been carried out a plurality of configurations with framework storage arrangement with above-mentioned formation, use in the framework at described storage arrangement, described the 1st resettlement section has held the described disc driver framework that a plurality of described disc drivers are held, described the 2nd resettlement section has held the described control part framework that a plurality of described control panels are held, and described the 3rd resettlement section has held described power unit; Described storage arrangement at other is used in the framework, and described the 1st resettlement section and described the 2nd resettlement section have held respectively, and to the described disc driver framework that a plurality of described disc drivers hold, described the 3rd resettlement section has held described power unit.
As mentioned above in storage arrangement, according to described power unit, the electric power that described control panel and described disc driver carry out is supplied with, optimally be to use same galvanic rated voltage.
In addition, for problem proposed by the invention and solution thereof, say by embodiments of the invention and diagram.
Description of drawings
Fig. 1 is the appearance assumption diagram of expression existing memory device.
Fig. 2 is the appearance assumption diagram of expression existing memory device.
Fig. 3 is the detailed structure view of the control device of expression existing memory device.
Fig. 4 is the detailed structure view of the drive unit of expression existing memory device.
Fig. 5 is the detailed structure view of the integral apparatus of expression existing memory device.
Fig. 6 is the control device of existing memory device and the comparison diagram of drive unit.
Fig. 7 is the control part of existing memory device is used casing with casing and disc driver a comparison diagram.
Fig. 8 is the appearance assumption diagram of the storage arrangement of expression present embodiment.
Fig. 9 is the appearance assumption diagram of the storage arrangement of expression present embodiment.
Figure 10 is the detailed structure view of the storage arrangement of explanation present embodiment.
Figure 11 holds the constitutional diagram of control part with casing in the control device of storage arrangement of expression present embodiment.
Figure 12 holds the constitutional diagram of disc driver with casing in the control device of storage arrangement of expression present embodiment.
The control device of the storage arrangement of Figure 13 present embodiment and the comparison diagram of drive unit.
Figure 14 is the control device of the storage arrangement of present embodiment is used casing with casing and disc driver a comparison diagram.
Figure 15 is the detailed structure view of control device of the storage arrangement of expression present embodiment.
Figure 16 is the detailed structure view of drive unit of the storage arrangement of expression present embodiment.
Figure 17 is the cooling structure figure of the control device of explanation existing memory device.
Figure 18 is the cooling structure figure of the drive unit of explanation existing memory device.
Figure 19 is the cooling structure figure of control device of the storage arrangement of explanation present embodiment.
Figure 20 is the cooling structure figure of control device of the storage arrangement of explanation present embodiment.
Figure 21 is the cooling structure figure of control device of the storage arrangement of explanation present embodiment.
Figure 22 is the cooling structure figure of drive unit of the storage arrangement of explanation present embodiment.
Figure 23 is the rectification body figure that storage arrangement was equipped with of expression present embodiment.
Figure 24 is the rectification body figure that storage arrangement was equipped with of expression present embodiment.
Figure 25 is the bus-bar figure that explanation existing memory device is equipped with.
Figure 26 is the bus-bar figure that explanation existing memory device is equipped with.
Figure 27 is the bus-bar figure that storage arrangement was equipped with of explanation present embodiment.
Figure 28 is the bus-bar figure that storage arrangement was equipped with of explanation present embodiment.
Embodiment
Below, utilize accompanying drawing that embodiments of the invention are elaborated.
At first, with reference to Fig. 1 and Fig. 2 the surface structure of existing memory device 1100 is carried out brief description.
1110 pairs of whole storage arrangements 1100 of control device are controlled.Detailed content is equipped with the logic section 1420 that whole storage arrangement 1100 is controlled as described later in the control device 1110.In addition, the disc driver 1310 that carries out data storage also is housed in the drive unit 1120.When the scale to storage arrangement 1100 expands, can set up drive unit 1120.Therefore, can be according to user's demand, the memory capacity of storage arrangement 1100 is changed flexibly, the higher storage arrangement of extendibility 1100 can be provided.As disc driver 1310, for example can adopt: various devices such as hard disk unit or semiconductor storage.
On the other hand, existing memory device 1100 shown in Figure 2 is to constitute by logic section 1420 that whole storage arrangement is controlled and the integral apparatus 1130 that carries out the disc driver 1310 of data storage are housed.The storage arrangement 1100 of structure shown in Figure 2 is that the Min. function with necessity is contained in a storage arrangement 1100 within the framework.Figure 2 shows that from having held the seen condition diagram of logic section 1,420 one sides.Disc driver 1310 is contained in and logic section 1420 opposite sides.Below, the side that title holds logic section 1420 is a front face side.And a side that claims to hold disc driver 1310 is the back side.
Next, describe to six figure shown in Figure 6 and front view each detailed structure with reference to Fig. 3 the existing memory device 1100 of Figure 1 and Figure 2.Fig. 3 is six figure of expression control device 1110, and Fig. 4 is six figure of expression drive unit 1120, and Fig. 5 is six figure of expression integral apparatus 1130.Fig. 6 is used for figure that control device 1110 and drive unit 1120 and integral apparatus 1130 are compared.
At first, with reference to Fig. 3 and Fig. 6 the structure of control device 1110 is described.
Fan 1500 is discharged the air of control device 1110 inside to the outside.Therefore, the heat that power supply module 1900 and logic module 1400 are produced can be emitted to the outside of control device 1110.
As shown in Figure 3, power supply module 1900, logic module 1400, battery 1800 are contained in upper strata, middle level and the lower floor of control device with framework 1200 respectively.In addition, control device is like this too with the back side of framework 1200, and upper strata, middle level and lower floor have held power supply module 1900, logic module 1400, battery 1800 respectively.
Below, the structure of the drive unit 1120 of existing memory device 1100 is described with reference to Fig. 4 and Fig. 6.
The structure of drive unit 1120 is that disk drive components 1300, AC-BOX1700, fan 1500 are contained in drive unit with in the framework 1210.
AC-BOX1700 is with the access port of alternating current incoming memory device 1100, has the function of switch.Insert the alternating current of AC-BOX1700 and supply with the DC power supply 1600 of disk drive components 1300 and the power supply module 1900 of control device 1110.
In example shown in Figure 4,4 layers of disk drive components 1300 laminations also are contained in drive unit with in the framework 1210.And disposed fan 1500 on the top of disk drive components 1300, the bottom has disposed AC-BOX1700.In addition, like this too with the back side of framework 1210 at drive unit, 4 layers of laminations also accommodate disk drive components 1300, and its top has disposed fan 1500, and the bottom has disposed AC-BOX1700.
Below, with reference to Fig. 5 and Fig. 6 the structure of existing memory device 1100 integral apparatus 1130 is described.
The structure of integral apparatus 1130 is in the front face side of integral apparatus with framework 1220, accommodate logic module 1400, power supply module 1900, fan 1500 and battery 1800, and side accommodates disk drive components 1300, AC-BOX1700 and fan 1500 in the back.The situation that these assemblies etc. are accommodated in control device 1110 and the drive unit 1120 is identical.And the accommodated position of these assemblies etc. is also identical with control device 1110, drive unit 1120 respectively.In addition, same with control device 1110 and drive unit 1120, these assemblies etc. are contained in integral apparatus with in the framework 1220 with detachable form.
In such integral apparatus 1130,, therefore, can constitute storage arrangement 1100 by integral apparatus 1130 owing to held each assembly of in control device 1110 and drive unit 1120, being held etc. in framework 1220 at integral apparatus.
Below, with reference to Fig. 6 and Fig. 7 the difference of the control device 1110 of above-mentioned explanation, drive unit 1120, integral apparatus 1130 is described respectively.What the figure shown in the left side of Fig. 6 represented is control device 1110, and its front face side with integral apparatus 1130 is identical.In addition, what the figure shown in the right side of Fig. 6 represented is drive unit 1120, and its back side with integral apparatus 1130 is also identical.Therefore, different by control device shown in Figure 6 1110 is described with drive unit 1120, control device 1110, drive unit 1120, integral apparatus 1130 difference separately just can be described.
In drive unit 1120,4 layers of disk drive components 1300 of lamination, and its top also is provided with fan 1500, and its underpart has set AC-BOX1700.In addition, in each disk drive components 1300, held the disc driver 1310 of 4 layers of laminations respectively.The drive unit that is used to hold each assembly etc. has upper isolation portion 1211, isolation part, middle part 1 (1212), isolation part, middle part 2 (1213), lower isolation portion 1214 with framework 1210, and by dividing and hold each assembly etc. in these isolation parts.In example shown in Figure 6,, also the isolation part can be set though between fan 1500 and disk drive components 1300, the isolation part is not set.
As shown in Figure 6, control device is different with the position of framework 1210 isolation part separately with drive unit with framework 1200.Its one of the main reasons is, as shown in Figure 7, because the height of logic module 1400 and width are distinguished different with the height and the amplitude of disk drive components 1300.
Therefore, in existing memory device 1100, necessary respectively special production control device framework 1200, drive unit framework 1210, integral apparatus framework 1220, in addition, the user of use and managed storage apparatus 1100 must buy new framework when the structure of change storage arrangement 1100.Therefore, it is general just to require these storage arrangement 1100 usefulness frameworks to realize.
In the storage arrangement 100 of present embodiment, realized the universalization of the framework (storage arrangement framework) 200 of storage arrangement 100 usefulness.At first, the surface structure with the storage arrangement 100 of present embodiment is shown among Fig. 8 and Fig. 9.
The storage arrangement 100 of present embodiment shown in Figure 8 is made of control device 110 and drive unit 120.In example shown in Figure 8, control device 110 is disposed at central authorities, has disposed drive unit 120 about it.
110 pairs of whole storage arrangements 100 of control device are controlled.Detailed content as described later, control device 110 has held the logic section 420 that whole storage arrangement 100 is controlled.In addition, also held the disc driver 310 that is used to store data.And then DC power supply 600, battery 800 and AC-BOX700 have also been held.The back side of control device 110 is like this too.
On the other hand, drive unit 120 has held the disc driver 310 of storage data.In addition, DC power supply 600, battery 800 and AC-BOX700 have also been held.The back side of drive unit 120 is like this too.When the scale of extended storage device 100, just set up and want drive unit 120.Therefore, can be according to user's demand, change, can provide the high storage arrangement of a kind of extendibility 100 flexibly to the memory capacity of storage arrangement 100.
Also have, storage arrangement 100 shown in Figure 9 is made of the integral apparatus 130 that has held the logic section 420 that whole storage arrangement 100 is controlled, the disc driver 310 that is used to store data, DC power supply 600 and battery 800, AC-BOX700.The storage arrangement 100 of structure is that necessary minimal function is contained in a device in the framework as storage arrangement 100 as shown in Figure 9.Its back side is like this too.The integral apparatus 130 of present embodiment has identical structure with control device 110 shown in Figure 8.
Below, illustrate with reference to Figure 10 to Figure 12 how these control device 110, drive unit 120, integral apparatus 130 use general framework 200 to constitute respectively.
Figure 10 is expression control device 110, drive unit 120 and the integral apparatus 130 common structural drawing that have.The disk drive components (disc driver casing) 300 that to hold a plurality of disc drivers 310 of proper alignment is contained in the upper strata (the 1st resettlement section) of framework 200, and lower floor (the 3rd resettlement section) has held battery 800, AC-BOX700, DC power supply 600.Wherein battery 800, AC-BOX700, DC power supply 600 are equivalent to power unit.Certainly, power unit both can by in these above-mentioned any one constitute, also can comprise inscape in addition.In addition, the top of disk drive components 300 has disposed fan 500.In the middle level (the 2nd resettlement section), under the situation of control device 110 or integral apparatus 130, held logic module (control part casing) 400, under the situation of drive unit 120, held disk drive components 300.
Like this height on framework 200 upper stratas of Gou Chenging and width make with the height of disk drive components 300 and width about equally, therefore, its upper strata can hold disk drive components 300.
The disk drive components 300 on upper strata is contained in the framework 200 dismantledly.And disc driver 310 is contained in the disk drive components 300 dismantledly.The battery 800 of lower floor, AC-BOX700 and DC power supply 600 also are to be contained in dismantledly in the framework 200.
Described upper strata, middle level and the lower floor of framework 200 divided by upper isolation portion 201 and lower isolation portion 202.
In addition, drive unit 120 can hold disk drive components 300 formations by the middle level at framework 200.Its structure as shown in figure 12.In the disk drive components that the middle level held 300 of framework 200, be identical with the disk drive components that the upper strata held 300 at framework 200.
In the framework 200 of present embodiment, because the height and the width in its upper strata and middle level are made about equally respectively.Therefore, its middle level can not only hold logic module 400, also can hold disk drive components 300.
Therefore, for example: when situations such as the scale of storage arrangement 100 expands,, also can be used as drive unit 120 and use so far as integral apparatus 130 employed frameworks 200.Though Figure 11 and Figure 12 are illustrated in the example that the middle level of framework 200 also can hold the situation of logic module 400 and disk drive components 300 any one assembly, also can be so that not only hold any one assembly in the middle level of framework 200 but also on the upper strata.In addition, also the position that can hold random component can be made only in the middle level or only on the upper strata.
Like this, in the present embodiment, any one in control device 110, drive unit 120, the integral apparatus 130 all can use general framework 200 to constitute.
In the storage arrangement 100 of present embodiment, it is about equally situation that the upper strata of shown in Figure 13 is representational framework 200 and the height in middle level and width are made respectively.In addition, the comparison diagram that is used for the height of Compare Logic assembly 400 and disk drive components 300 and width as shown in figure 14.Also have, Figure 15 shows that six figure of the detailed structure of expression control device 110 and integral apparatus 130.Figure 16 shows that six figure of the detailed structure of expression drive unit 120.
At first, with reference to Figure 13 and Figure 15 the control device 110 of present embodiment and the structure of integral apparatus 130 are described.
The structure of control device 110 and integral apparatus 130 is that logic module 400, disk drive components 300, DC power supply 600, AC-BOX700, battery 800, fan 500 are contained within the framework 200.In addition, in control device 110 and integral apparatus 130, be provided with and can be used in the operation panel 111 of operating input by the operator of maintenance management storage arrangement 100.
As illustrated with Figure 11, logic module 400 is contained in the framework 200 dismantledly.Logic module 400 has and is used for logic section 420 and logic module fan 410 that storage arrangement 100 is controlled.Held the detachable logic card 430 (being used for the control panel of controlling is handled in the data input and output of disc driver) that has carried out proper alignment in logic section 420, and storage arrangement 100 has been carried out various controls by it.The logic card 430 that is held as logic section 420, can be for example to be used for and the channel adapter of communicating by letter that storage arrangement 100 is carried out the data input and output between as the signal conditioning package of memory storage utilization, or carry out the disk adapter that input and output are handled to being stored in data in the disc driver 310, or be used to store and signal conditioning package between receive the cache memory that sends data etc.In addition, these logic cards 430, as Figure 13 or shown in Figure 11, not only be contained in and make its all proper alignment in the same way in the logic section 420, the form that its mode of holding also can be for example mixed with the logic card 430 of horizontal proper alignment for the logic card 430 of vertical proper alignment.
In addition, disk drive components 300 is contained in the framework 200 dismantledly.Disk drive components 300 has been held the disc driver 310 that is used to store data.Disc driver 310 is the devices that are used to store data that have recording medium in inside.As disc driver 310, for example can adopt: various devices such as hard disk unit or semiconductor storage.As shown in figure 13, the disc driver 310 that has held 8 layers of laminations in the disk drive components 300 of present embodiment.Therefore, the height of the disk drive components 300 of present embodiment can do with the height of logic module 400 about equally.
The bottom of framework 200 (the 3rd resettlement section) has held DC power supply 600, AC-BOX700 and battery 800 (DC power supply 600, AC-BOX700 and battery 800 are equivalent to power unit).Power unit is contained in the framework 200 dismantledly.DC power supply 600 has alternating current is converted to direct current, is used for supplying with galvanic supply unit to logic module 400 and disc driver 310.Logic module 400 and disc driver 310 are same with existing memory device 1100, direct current work by different voltages respectively, in the present embodiment, DC power supply 600 is supplied with disc driver 310 to logic module 400 and is had the identical direct current of rated voltage.In addition, accept the logic module 400 and the disc driver 310 of the electric power supply of identical voltage,, can carry out the conversion of different voltages respectively because its inside has disposed voltage changer (DC/DC converter) respectively.
In addition, in the control device 110 and integral apparatus 130 of present embodiment, be used for supplying with the lower floor that galvanic DC power supply 600 is contained in framework 200 to disc driver 310.Therefore, because the DC power supplys 1600 that held in the existing disk drive components 1300 can remove in disk drive components 1300, therefore, the width that can make the width of disk drive components 300 of present embodiment and logic module 400 about equally.
AC-BOX700 is the alternating current access port to storage arrangement 100, has the function of switch.Alternating current by the AC-BOX700 input is supplied with DC power supply 600.
In the control device 110 and integral apparatus 130 of such present embodiment, power unit all concentrates on the bottom of framework 200.Therefore, in control device 110 or integral apparatus 130 inside, can save the distribution that alternating current is used.
In addition, by in the internal configurations of logic module 400 and disk drive components 300 voltage changer, therefore, saved the distribution of using for the direct current of supplying with different voltages in the control device 110 and the inside of integral apparatus 130.Therefore, the configuration of distributions in the framework 200 is simplified, can be made the becoming easily of manufacturing, maintenance, repairing etc. of storage arrangement 100, improved security simultaneously.Also have,, can improve the reliability of storage arrangement 100 because it can not be subjected to The noise.
Its concrete pattern is shown in Figure 25 to 28, and Figure 25 and Figure 26 are illustrated in the existing integral apparatus 1130, and the electric power of a plurality of rated voltages is supplied with the constitutional diagram that logic module 1400 is advanced from power supply module 1900.In addition, though the example of the situation of Figure 25 and Figure 26 expression integral apparatus 1130 is suitable for too to control device 1110.
As shown in figure 26, supply with to the electric power of logic module 1400 from power supply module 1900, be by connect with bus-bar 1610 power supply modules with circuit board 1910 and logic module with circuit board 1440 and realize.Bus-bar 1610 is sheet metals of using to logic module 1400 supply capabilities from power supply module 1900.In order to supply with bigger electric power to logic module 1400, be not enough with the electric capacity allowable of common tinsel distribution from power supply module 1900.Therefore, used the supply of carrying out electric power as the sheet metal of bus-bar 1610 and so on.Power supply module is disposed at the inboard of integral apparatus with framework 1220 upper stratas with circuit board 1910 with power supply module reinforcement plate 1920.Control device is with the occasion of framework 1200, not only in front side and also in the back side carry out same configuration.Power supply module 1900 is contained in integral apparatus when the framework 1220, and the set electrical connectors of power supply module 1900 and power supply module engage with circuit board 1910 set electrical connectors.On the other hand, logic module is arranged at the inboard of integral apparatus with the middle level of framework 1220 with circuit board 1440 with logic module reinforcement plate 1450.At control device with the occasion of framework 1200, not only in front side and also in the back side dispose too.Logic module 1400 is contained in integral apparatus when the framework 1220, and the set electrical connectors of logic module 1400 and logic module engage with circuit board 1440 set electrical connectors.So, power supply module 1900 and logic module 1400 can be electrically connected mutually.And, can be from power supply module 1900 to logic module 1400 supply capabilities.As mentioned above, be necessary to supply with a plurality of voltages to logic module 1400 always.Therefore, as shown in figure 26, connect power supply module and increase, dispose bus-bar 1610 and need spend a large amount of man-hours with circuit board 1910 and logic module kind and quantity with the bus-bar 1610 of circuit board 1440.As shown in figure 26, also be necessary sometimes to use circuit board 1910 and logic module with the sideway stance of circuit board 1440, dispose long bus-bar 1610 at power supply module.
Figure 25 is illustrated in the inside of existing integral apparatus 1130, by the state between bus-bar 1610 connection power supply modules 1900 and the logic module 1400.As shown in figure 25, in existing integral apparatus 1130, power supply module 1900 is contained in the upper strata of integral apparatus with framework 1220, and logic module 1400 is contained in its middle level.Therefore, owing to disposed the position relation of logic module fan 1410 between power supply module 1900 and the logic module 1400, therefore, the length of the reflux condition 1610 of holding logic module fan 1410 parts under the arm of having to extend.
On the other hand, in the integral apparatus 130 of present embodiment, DC power supply 600 is contained in the lower floor of framework 200, and logic module 400 is contained in the middle level.Even in the integral apparatus 130 of present embodiment, though use bus-bar 610 to carry out to logic module 400 supply capabilities from DC power supply 600, but as shown in figure 27, by DC power supply 600 being contained in the bottom of logic module 400, therefore, can make the logic module fan 410 of configuration between logic module 400 and the DC power supply 600 not concern problem in the location.Therefore, can shorten the length of bus-bar 610.
In addition, as shown in figure 28, in the integral apparatus 130 of present embodiment, also be connected logic module and use between the circuit board 910 with circuit board 440 and DC power supply with bus-bar 610.And the DC power supply is configured in the inboard of framework 200 lower floors with circuit board 910 with DC power supply reinforcement plate 920.Being not only its back side of front face side disposes similarly.And in the time of in DC power supply 600 is contained in framework 200, the set electrical connectors of DC power supply 600 and DC power supply engage with circuit board 910 set electrical connectors.On the other hand, logic module is configured in the inboard in framework 200 middle levels with circuit board 440 with logic module with reinforcement plate 450.Being not only its back side of front face side disposes similarly.And when logic module 400 was contained in the framework 200, the electrical connectors that logic module 400 is disposed engaged with the electrical connectors that circuit board 440 is disposed with logic module.So, DC power supply 600 is electrically connected mutually with logic module 400.And, carry out the supply of electric power from DC power supply 600 to logic module 400.
As Figure 27 and shown in Figure 28, in the present embodiment, the quantity that can make bus-bar 610 is than existing minimizing.And then, can shorten the length of bus-bar 610.This is because as mentioned above, in the storage arrangement 100 of present embodiment, because the galvanic voltage of supplying with to logic module 400 from DC power supply 600 is a kind of, therefore, DC power supply 600 can be contained in the bottom of logic module 400.
Below with reference to Figure 13 and Figure 16 the structure of the drive unit 120 of present embodiment is described.
The structure of drive unit 120 is to accommodate disk drive components 300, DC power supply 600, AC-BOX700, battery 800, fan 500 in framework 200.These assemblies etc. with in control device 110 and integral apparatus 130 used identical.In the storage arrangement 100 of present embodiment, any one of control device 110, drive unit 120, integral apparatus 130 all uses general framework 200 to constitute.And, in drive unit 120, in control device 110, held the middle level of the framework 200 of logic module 400, can hold disk drive components 300.This is because as mentioned above, in the present embodiment, the height of the height of logic module 400 and width and disk drive components 300 and width can be about equally, and the height in the upper strata of framework 200, middle level and width also can be about equally.
Below, this describes the cooling structure of present embodiment large memories device 100 with reference to Figure 17 to Figure 24.
At first, with Figure 17 and Figure 18 the cooling structure of existing memory device 1100 is described.Figure 17 represents the cooling structure of the integral apparatus 1130 of existing memory device 1100.Figure 18 represents the cooling structure of the drive unit 1120 of existing memory device 1100.Figure 17 and arrow shown in Figure 180 are represented the flow direction of cooling draught.Other accompanying drawing is like this too.About the cooling structure of control device 1110, identical with the logic section 1420 and the cooling structure in the power supply module 1900 of integral apparatus 1130.
The cooling of the front face side of integral apparatus 1130 is undertaken by the air of logic section 1420 and power supply module 1900 inside is discharged to the outside of integral apparatus 1130 by fan 1500 and logic module fan 1410.That is, utilize logic module fan 1410 that the air of logic section 1420 inside is sucted after, utilize fan 1500 to be discharged to the outside of integral apparatus 1130 together with the air of power supply module 1900 inside.
The cooling of the back side of integral apparatus 1130 is discharged the air of disk drive components 1300 inside by fan 1500 to the outside of integral apparatus 1130.Promptly, the air of disk drive components 1300 inside as shown in figure 17, in the inside of integral apparatus,, discharge to the outside of integral apparatus 1130 by fan 1500 by formed space between disk drive components 1300 and logic module 1400 or the power supply module 1900 with framework 1220.
The cooling of drive unit 1120 as shown in figure 18, and is identical with the cooling of integral apparatus 1130 back sides.Promptly as shown in figure 18, with the inside of framework 1230, discharge the air of disk drive components 1300 inside by fan 1500 in formed space between the disk drive components 1300 by front face side and the disk drive components 1300 of back side to the outside at drive unit.
Below, with Figure 19 to Figure 24 the cooling structure of the storage arrangement 100 of present embodiment is described.Figure 19 to Figure 21 is the key diagram that is used for the cooling structure of instructions control device 110 or integral apparatus 130.Figure 22 is the key diagram that is used to illustrate the cooling structure of drive unit 120.
The storage arrangement 110 of present embodiment or integral apparatus 130 have disposed fan 500, disk drive components 300, logic section 420, logic module fan 410 and power unit (DC power supply 600, AC-BOX700, battery 800).And,, the air of control device 110 or integral apparatus 130 inside is discharged to the outside, thereby these devices is cooled off by fan 500 and logic module fan 410.At this moment, can as far as possible the air of framework 200 inside successfully be discharged to the outside from the viewpoint hope that improves cooling effectiveness.The control device 110 of present embodiment and integral apparatus 130, upper strata have held that disk drive components 300, middle level have been held logic module 400, lower floor has held power unit.In the control device 110 and integral apparatus 130 of present embodiment, can improve exhaust efficiency by above-mentioned configuration.
That is, as shown in figure 19, the disk drive components that the upper strata held 300 of framework 200, its degree of depth of comparing with logic module 400 and power unit is more shallow.Therefore, when disk drive components 300 is contained in the framework, can guarantee that formed space is bigger between the disk drive components 300 that disk drive components 300 that front face side is held and back side hold.Like this, can guarantee that the ventilating path of the cooling air that attracts by fan 500 is bigger.In a word, can effectively the air of framework 200 inside be discharged to the outside.
In addition, as shown in figure 19, it is darker that the power unit that the lower floor of framework 200 holds and disk drive components 300 and logic module 400 are compared its degree of depth.Therefore, when supposing that power unit is contained in the upper strata of framework 200 or middle level, will stop up the ventilating path of cooling air, in the control device 110 and integral apparatus 130 of present embodiment, because power unit is housed inside lower floor, the obstruction of ventilating path just can not appear.
In addition, the logic module 400 that the middle level of framework 200 holds, to compare its degree of depth more shallow with the disk drive components 300 that the upper strata holds, and to compare its degree of depth more shallow with the power unit that lower floor holds.Therefore, because logic module 400 is contained in the middle level of framework 200, when the upper strata that can guarantee framework 200 has bigger ventilating path, the space that also can guarantee the middle level ventilating path.In addition, because logic module 400 is different with disk drive components 300, have the structure that but above-below direction ventilates in the assembly, thereby as shown in figure 19, can make the logic module 400 of front face side and the logic module 400 of back side be contained in the inside of framework 200 and make its closely configuration mutually.So, the power unit that drinks up by logic module fan 410 and the air of logic module 400 inside can be sent into the ventilating path on framework 200 upper stratas effectively.
When adopting cooling structure shown in Figure 19, in the ventilating path on framework 200 upper stratas, from the cooling air of disk drive components 300 and cooling air interflow from logic module 400.When cooling air collaborates, forming cooling air turbulent, then become the main cause that reduces exhaust efficiency.Therefore, 20 be depicted as the cooling structure figure that forms turbulent flow when expression is used to suppress the cooling air interflow.That is, as shown in figure 20, in framework 200, set rectification fin 211.Therefore, the turbulent flow of formed cooling air in the time of can suppressing to clash from the cooling air of disk drive components 300 and cooling air from logic module 400.Shown in Figure 23 is the mode of the configuration of expression rectification fin 211.
But,,, all collaborated until arriving between the fan 500 from the cooling air of disk drive components 300 and cooling air from logic module 400 even used rectification fin 211.Therefore, for do not make from the cooling air of disk drive components 300 with from the cooling air interflow of logic module 400 to improve the efficient of exhaust, cooling structure shown in Figure 21 has been proposed.That is, as shown in figure 21, in the internal configurations of framework 200 ventiduct 210.Configuration status figure for expression ventiduct 210 shown in Figure 24.Owing to be provided with ventiduct 210 in the framework 200, therefore, can be from the cooling air of logic module 400 by the ventiduct 210 inner fans 500 that arrive, can arrive fan 500 along the outer wall of ventiduct from the cooling air of disk drive components 300.So just can not make from the cooling air of disk drive components 300 and cooling air and collaborate from logic module 400.Adopt such structure, can further improve the exhaust efficiency of control device 110 or integral apparatus 130.In addition, had better not make between the top of ventiduct 210 and the fan 500 and combine closely, and suitable distance should be arranged.If combine closely, the attractive force of the air of 500 pairs of ventiduct 210 inside of fan can weaken.
Below, the cooling structure of the drive unit 120 of present embodiment is illustrated among Figure 22.
It is identical that the cooling structure of drive unit 120 is made the cooling structure with control device 110 and integral apparatus 130 shown in Figure 21, has the structure of ventiduct 210 in inside.The difference of the cooling structure of control device 110 and integral apparatus 130 is that its middle level accommodates disk drive components 300.At this moment, from the cooling air in the disk drive components 300 in middle level, discharge to the outside of drive unit 120 by the inside of ventiduct 210.In addition, from the cooling air in the disk drive components 300 on upper strata, discharge to the outside of drive unit 120 along the outer wall of ventiduct 210.In such drive unit 120 by in framework 200, also disposing ventiduct 210, can make from the cooling air in the disk drive components 300 on upper strata with will not collaborate just to discharge from the disk drive components 300 of middle level and lower floor and the cooling air in the power unit.Therefore, drive unit 120 is also same with control device 110 and integral apparatus 130, can effectively cool off.
As mentioned above, in the storage arrangement of present embodiment, can be used in the framework universalization that constitutes control device, drive unit and integral apparatus.Therefore, can change the structure of storage arrangement easily according to user's demand.In addition, because employed parts also are general when making storage arrangement, therefore, system is more prone to and has reduced cost.
In addition, because power unit is contained in the bottom of framework, therefore, just there is no need to dispose the distribution that alternating current is used in inside of frame.Also have,, therefore, also inside of frame is supplied with the distribution that the direct current of different voltages is used with regard to there is no need to dispose because the galvanic voltage of supplying with to logic module from power unit can be for a kind of.Like this, can simplify the configuration of distribution in the framework, the manufacturing, maintenance, repairing etc. of storage arrangement are become easily, and can improve its security.Because it can not be subjected to The noise, therefore, can improve the reliability of storage arrangement.And then, for reducing to the kind of the employed bus-bar of logic module supply capability and quantity, and its length is shortened from power unit.Therefore, when can reduce the amount of parts that constitutes storage arrangement, the maintenance, repairing etc. of storage arrangement are become easily, also can improve the efficient of assembling operation.
More than be the explanation to present embodiment, the foregoing description is in order more easily to understand the present invention, rather than is used for the present invention is done restrictive explanation.As long as can carry out various changes and improvement under the prerequisite that does not break away from aim of the present invention, simultaneously, its equivalent is also contained among the present invention.
The present invention can provide storage arrangement with framework and storage arrangement.
Claims (6)
1. storage arrangement framework is characterized in that: be provided with the disc driver of a plurality of disc drivers that held proper alignment height and the width with casing and equate, and be used to hold 1st resettlement section of described disc driver with casing; The control part of handling a plurality of control panels of controlling with the input and output to the data of described disc driver of having held proper alignment is with casing, the 2nd resettlement section that equates with the height and the width of described the 1st resettlement section, wherein said the 1st resettlement section is positioned at the upper strata of storage arrangement with framework, described the 2nd resettlement section is positioned at the middle level of storage arrangement with framework, and described the 2nd resettlement section is arranged at the bottom of described the 1st resettlement section.
2. the storage arrangement framework of putting down in writing according to claim 1, it is characterized in that: in described storage arrangement is used framework, be provided with the 3rd resettlement section that is used to hold to the power unit of described control panel and described disc driver supply capability, described the 3rd resettlement section is arranged at the bottom of described the 2nd resettlement section.
3. storage arrangement, it is characterized in that: disposed the storage arrangement framework, this storage arrangement is provided with the disc driver of a plurality of disc drivers that held proper alignment height and the width with casing with framework and equates, and is used to hold 1st resettlement section of described disc driver with casing; The control part of handling a plurality of control panels of controlling with the input and output to the data of described disc driver of having held proper alignment is with casing, the 2nd resettlement section that equates with the height and the width of described the 1st resettlement section, wherein said the 1st resettlement section is positioned at the upper strata of storage arrangement with framework, described the 2nd resettlement section is positioned at the middle level of storage arrangement with framework, and described the 2nd resettlement section is arranged at the bottom of described the 1st resettlement section; With in the framework, be provided with the 3rd resettlement section that is used to hold to the power unit of described control panel and described disc driver supply capability at described storage arrangement, described the 3rd resettlement section is arranged at the bottom of described the 2nd resettlement section;
The described disc driver that is held with described the 1st resettlement section is with a plurality of described disc driver that casing held, the described power unit that the described control part that is held with described the 2nd resettlement section is held with a plurality of described control panel that casing held and described the 3rd resettlement section.
4. the storage arrangement of putting down in writing according to claim 3, it is characterized in that: the electric power of being supplied with described control panel and described disc driver by described power unit is the identical direct current of rated voltage.
5. storage arrangement, it is characterized in that: be to have the storage arrangement of a plurality of storage arrangements with framework, wherein this storage arrangement is provided with the disc driver of a plurality of disc drivers that held proper alignment height and the width with casing with framework and equates, and is used to hold 1st resettlement section of described disc driver with casing; The control part of handling a plurality of control panels of controlling with the input and output to the data of described disc driver of having held proper alignment is with casing, the 2nd resettlement section that equates with the height and the width of described the 1st resettlement section, wherein said the 1st resettlement section is positioned at the upper strata of storage arrangement with framework, described the 2nd resettlement section is positioned at the middle level of storage arrangement with framework, and described the 2nd resettlement section is arranged at the bottom of described the 1st resettlement section; With in the framework, be provided with the 3rd resettlement section that is used to hold to the power unit of described control panel and described disc driver supply capability at described storage arrangement, described the 3rd resettlement section is arranged at the bottom of described the 2nd resettlement section;
Use in the framework at some described storage arrangements, described the 1st resettlement section accommodates the described disc driver casing that holds a plurality of described disc drivers, described the 2nd resettlement section accommodates the described control part casing that has held a plurality of described control panels, and described the 3rd resettlement section accommodates described power unit; Described storage arrangement at other is used in the framework, and described the 1st resettlement section and described the 2nd resettlement section accommodate the described disc driver casing that has held a plurality of described disc drivers respectively, and described the 3rd resettlement section accommodates described power unit.
6. the storage arrangement of putting down in writing according to claim 5, it is characterized in that: the electric power of being supplied with described control panel and described disc driver by described power unit is the identical direct current of rated voltage.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2003172536A JP4260554B2 (en) | 2003-06-17 | 2003-06-17 | Storage device casing and storage device |
JP2003172536 | 2003-06-17 |
Publications (2)
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CN1573650A CN1573650A (en) | 2005-02-02 |
CN1249556C true CN1249556C (en) | 2006-04-05 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CNB2004100487381A Expired - Fee Related CN1249556C (en) | 2003-06-17 | 2004-06-15 | Casing for storage apparatus and storage apparatus |
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US (2) | US7113364B2 (en) |
JP (1) | JP4260554B2 (en) |
CN (1) | CN1249556C (en) |
DE (1) | DE102004013127B4 (en) |
FR (1) | FR2856488B1 (en) |
GB (1) | GB2403854B (en) |
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Publication number | Priority date | Publication date | Assignee | Title |
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JP4260554B2 (en) * | 2003-06-17 | 2009-04-30 | 株式会社日立製作所 | Storage device casing and storage device |
JP4361033B2 (en) * | 2005-04-27 | 2009-11-11 | 株式会社日立製作所 | Disk array device |
JP2007011931A (en) * | 2005-07-04 | 2007-01-18 | Hitachi Ltd | Memory control unit |
US20080084680A1 (en) * | 2006-10-09 | 2008-04-10 | Shah Mohammad Rezaul Islam | Shared docking bay accommodating either a multidrive tray or a battery backup unit |
US7643281B2 (en) * | 2006-12-13 | 2010-01-05 | Hitachi, Ltd. | Storage controller |
JP5022803B2 (en) * | 2006-12-13 | 2012-09-12 | 株式会社日立製作所 | Storage controller |
US20090257187A1 (en) * | 2008-04-11 | 2009-10-15 | Dell Products L.P. | Information Handling System with Chassis Design for Storage Device Access |
US20110176270A1 (en) * | 2010-01-19 | 2011-07-21 | Ku-Yang Chou | System rack for accessing hard disks in dual directions |
KR102653009B1 (en) * | 2018-10-11 | 2024-04-01 | 에스케이하이닉스 주식회사 | Storage cooling system and smart vehicle including the same |
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2003
- 2003-06-17 JP JP2003172536A patent/JP4260554B2/en not_active Expired - Fee Related
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2004
- 2004-01-28 US US10/765,108 patent/US7113364B2/en not_active Expired - Fee Related
- 2004-03-17 DE DE102004013127A patent/DE102004013127B4/en not_active Expired - Fee Related
- 2004-03-24 GB GB0406624A patent/GB2403854B/en not_active Expired - Fee Related
- 2004-04-16 FR FR0404006A patent/FR2856488B1/en not_active Expired - Fee Related
- 2004-06-15 CN CNB2004100487381A patent/CN1249556C/en not_active Expired - Fee Related
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2006
- 2006-08-18 US US11/505,839 patent/US7394616B2/en not_active Expired - Fee Related
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US20040261089A1 (en) | 2004-12-23 |
US7113364B2 (en) | 2006-09-26 |
JP4260554B2 (en) | 2009-04-30 |
DE102004013127B4 (en) | 2006-04-06 |
GB2403854B (en) | 2005-06-01 |
FR2856488A1 (en) | 2004-12-24 |
FR2856488B1 (en) | 2006-07-07 |
JP2005011405A (en) | 2005-01-13 |
US7394616B2 (en) | 2008-07-01 |
CN1573650A (en) | 2005-02-02 |
US20060279875A1 (en) | 2006-12-14 |
GB0406624D0 (en) | 2004-04-28 |
DE102004013127A1 (en) | 2005-01-13 |
GB2403854A (en) | 2005-01-12 |
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